Optimized for speed, low latency, and high stability, the Ripjaws X Series memory is the perfect solution for a more responsive system. Consider purchasing this Ripjaws X Series memory kit if you are upgrading your existing system; you’ll see an extraordinary boost in your PC’s performance and bandwidth.
Each Ripjaws X Series DIMM comes with an impressive heat spreader. These DIMMs also operate at a cool 1.5V for better internal temperature and compatibility.
Enthusiasts’ choice can’t be wrong. Building on the world-class performance and overclockability, G.SKILL RipjawsX series memory has been voted as the Best Memory Series by the community of the overclockers in 2011! If you need a high performance and high quality kit to complete your enthusiast PC, look no further.
Built for the best quality, G.SKILL RipjawsX series memory has been the most frequent winner of Newegg’s “Customer Choice Award”, against all Desktop Memory products at Newegg.com. Backed up by thousands of the highest rating of customer reviews, RipjawsX series memory is absolutely the best quality product you can trust.
Unparalleled DDR3 memory solution, the RipjawsX Series is the memory of choice. Specifically designed to complement quad-channel capable systems and optimized for the widest compatibility with Intel and AMD platforms, each RipjawsX memory kit is put through numerous compatibility and stress tests. As a result of G.SKILL's strict quality control, RipjawsX offers the highest quality, fastest speed, lowest timing, and firmest stability.
Sporting a sleek and stylish heat spreader, heat dissipation is maximized by increasing surface area for cool air to pass over while your system is gaming or computing. The hollow teeth-like heat spreader fins is made from aluminum and designed to allow maximumair flow for maximum cooling efficiency.
All G.SKILL DDR3 memory come with the latest Intel XMP standard developed for Intel platform. It provides PC enthusiasts an entirely trouble-free overclocking experience to boost their Intel systems for extreme levels of performance, while retaining system stability.